Your search keyword '"Pires, Ivan Miguel"' showing total 70 results

1. LocustLens: leveraging environmental data fusion and machine learning for desert locust swarm prediction.

Author

Khan, Sidra, Akram, Beenish Ayesha, Zafar, Amna, Wasim, Muhammad, Khurshid, Khaldoon S., and Pires, Ivan Miguel

Abstract

The desert locust is one of the most destructive locusts recorded in human history, and it has caused significant food shortages, monetary losses, and environmental calamities. Prediction of locust attacks is complicated as it depends on various environmental and geographical factors. This research aims to develop a machine-learning model for predicting desert locust attacks in 42 countries that considers three predictors: soil moisture, maximum temperature, and precipitation. We developed the Global Locust Attack Database for 42 countries (GLAD42) by integrating TerraClimate's environmental data with locust swarm attack data from the Food and Agriculture Organization (FAO). To improve the usability of spatial data, reverse geocoding which is the process of converting geographic coordinates (longitude and latitude) into human-readable location names (such as countries and regions) was employed. This step enhances the clarity and interpretability of the data by providing meaningful geographic context. This study's initial dataset focused on instances where locust attacks were recorded (positive class). To ensure a comprehensive analysis, we also incorporated negative class instances, representing periods (specific years and months) in the same countries and regions where locust attacks did not occur. This research utilizes the benefits of lazy learners by employing the K-nearest neighbor algorithm (K-NN), which provides high accuracy and the benefit of no time-consuming retraining even if real-time updated data is periodically added to the system. This research also focuses on building an eco-friendly machine learning model by evaluating carbon emissions from ML models. The results obtained from LocustLens are compared with other machine learning models, including baseline–K-NN, decision trees (DT), Logistic regression (LR), AdaBoost Classifier, BaggingClassifier, and support vector classifier (SVC). LocustLens outperformed all competitors with an accuracy of 98%, while baseline-K-NN achieved 96%, SVC gave 91%, DT gave 97%, AdaBoost has accuracy of 91%, BaggingClassifier gave 94% and LR gave 83%, respectively. Carbon emissions from RAM and CPU electricity consumption are measured in kg gCO2. They are a minimum for AdaBoost Classifier equal to 0.02 and 0.07 for DT and a maximum of 9.03 for SVC. The carbon footprint of LocustLens is 4.87 kg gCO2. [ABSTRACT FROM AUTHOR]

Published

2024

2. Schizophrenia diagnosis based on diverse epoch size resting-state EEG using machine learning.

Author

Alazzawı, Athar, Aljumaili, Saif, Duru, Adil Deniz, Uçan, Osman Nuri, Bayat, Oğuz, Coelho, Paulo Jorge, and Pires, Ivan Miguel

Subjects

ADDITIVE white Gaussian noise, UNCERTAINTY (Information theory), FAST Fourier transforms, SUPPORT vector machines, K-nearest neighbor classification

Abstract

Schizophrenia is a severe mental disorder that impairs a person's mental, social, and emotional faculties gradually. Detection in the early stages with an accurate diagnosis is crucial to remedying the patients. This study proposed a new method to classify schizophrenia disease in the rest state based on neurologic signals achieved from the brain by electroencephalography (EEG). The datasets used consisted of 28 subjects, 14 for each group, which are schizophrenia and healthy control. The data was collected from the scalps with 19 EEG channels using a 250 Hz frequency. Due to the brain signal variation, we have decomposed the EEG signals into five sub-bands using a band-pass filter, ensuring the best signal clarity and eliminating artifacts. This work was performed with several scenarios: First, traditional techniques were applied. Secondly, augmented data (additive white Gaussian noise and stretched signals) were utilized. Additionally, we assessed Minimum Redundancy Maximum Relevance (MRMR) as the features reduction method. All these data scenarios are applied with three different window sizes (epochs): 1, 2, and 5 s, utilizing six algorithms to extract features: Fast Fourier Transform (FFT), Approximate Entropy (ApEn), Log Energy entropy (LogEn), Shannon Entropy (ShnEn), and kurtosis. The L2-normalization method was applied to the derived features, positively affecting the results. In terms of classification, we applied four algorithms: K-nearest neighbor (KNN), support vector machine (SVM), quadratic discriminant analysis (QDA), and ensemble classifier (EC). From all the scenarios, our evaluation showed that SVM had remarkable results in all evaluation metrics with LogEn features utilizing a 1-s window size, impacting the diagnosis of Schizophrenia disease. This indicates that an accurate diagnosis of schizophrenia can be achieved through the right features and classification model selection. Finally, we contrasted our results to recently published works using the same and a different dataset, where our method showed a notable improvement. [ABSTRACT FROM AUTHOR]

Published

2024

3. A roadmap for empowering cardiovascular disease patients: a 5P-Medicine approach and technological integration.

Author

Denysyuk, Hanna V., Pires, Ivan Miguel, and Garcia, Nuno M.

Subjects

PATIENT participation, LITERATURE reviews, SELF-efficacy, RESEARCH questions, WORLD health, INDIVIDUALIZED medicine, HEALTH literacy

Abstract

This article explores the multifaceted concept of cardiovascular disease (CVD) patients' empowerment, emphasizing a shift from compliance-oriented models to active patient participation. In recognizing that cardiovascular disease is a paramount global health challenge, this study illuminates the pressing need for empowering patients, underscoring their role as active participants in their healthcare journey. Grounded in 5P-Medicine principles—Predictive, Preventive, Participatory, Personalized, and Precision Medicine—the importance of empowering CVD patients through analytics, prevention, participatory decision making, and personalized treatments is highlighted. Incorporating a comprehensive overview of patient empowerment strategies, including self-management, health literacy, patient involvement, and shared decision making, the article advocates for tailored approaches aligned with individual needs, cultural contexts, and healthcare systems. Technological integration is examined to enhance patient engagement and personalized healthcare experiences. The critical role of patient-centered design in integrating digital tools for CVD management is emphasized, ensuring successful adoption and meaningful impact on healthcare outcomes. The conclusion proposes vital research questions addressing challenges and opportunities in CVD patient empowerment. These questions stress the importance of medical community research, understanding user expectations, evaluating existing technologies, defining ideal empowerment scenarios, and conducting a literature review for informed advancements. This article lays the foundation for future research, contributing to ongoing patient-centered healthcare evolution, especially in empowering individuals with a 5P-Medicine approach to cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2024

4. Semantic features analysis for biomedical lexical answer type prediction using ensemble learning approach.

Author

Hussain, Fiza Gulzar, Wasim, Muhammad, Cheema, Sehrish Munawar, and Pires, Ivan Miguel

Subjects

QUESTION answering systems, NATURAL language processing, CLASSIFICATION algorithms, PROTEIN-protein interactions, TASK performance, FORECASTING

Abstract

Lexical answer type prediction is integral to biomedical question–answering systems. LAT prediction aims to predict the expected answer's semantic type of a factoid or list-type biomedical question. It also aids in the answer processing stage of a QA system to assign a high score to the most relevant answers. Although considerable research efforts exist for LAT prediction in diverse domains, it remains a challenging biomedical problem. LAT prediction for the biomedical field is a multi-label classification problem, as one biomedical question might have more than one expected answer type. Achieving high performance on this task is challenging as biomedical questions have limited lexical features. One biomedical question must be assigned multiple labels given these limited lexical features. In this paper, we develop a novel feature set (lexical, noun concepts, verb concepts, protein–protein interactions, and biomedical entities) from these lexical features. Using ensemble learning with bagging, we use the label power set transformation technique to classify multi-label. We evaluate the integrity of our proposed methodology on the publicly available multi-label biomedical questions dataset (MLBioMedLAT) and compare it with twelve state-of-the-art multi-label classification algorithms. Our proposed method attains a micro-F1 score of 77%, outperforming the baseline model by 25.5%. [ABSTRACT FROM AUTHOR]

Published

2024

5. Sensor-based systems for the measurement of Functional Reach Test results: a systematic review.

Author

Francisco, Luís, Duarte, João, Nunes Godinho, António, Zdravevski, Eftim, Albuquerque, Carlos, Pires, Ivan Miguel, and Coelho, Paulo Jorge

Subjects

SCIENCE databases, DATABASE industry, PHYSICAL therapy, CONGREGATE housing, STATISTICAL models

Abstract

The measurement of Functional Reach Test (FRT) is a widely used assessment tool in various fields, including physical therapy, rehabilitation, and geriatrics. This test evaluates a person's balance, mobility, and functional ability to reach forward while maintaining stability. Recently, there has been a growing interest in utilizing sensor-based systems to objectively and accurately measure FRT results. This systematic review was performed in various scientific databases or publishers, including PubMed Central, IEEE Explore, Elsevier, Springer, the Multidisciplinary Digital Publishing Institute (MDPI), and the Association for Computing Machinery (ACM), and considered studies published between January 2017 and October 2022, related to methods for the automation of the measurement of the Functional Reach Test variables and results with sensors. Camera-based devices and motion-based sensors are used for Functional Reach Tests, with statistical models extracting meaningful information. Sensor-based systems offer several advantages over traditional manual measurement techniques, as they can provide objective and precise measurements of the reach distance, quantify postural sway, and capture additional parameters related to the movement. [ABSTRACT FROM AUTHOR]

Published

2024

6. Mobile Data Gathering and Preliminary Analysis for the Functional Reach Test.

Author

Francisco, Luís, Duarte, João, Albuquerque, Carlos, Albuquerque, Daniel, Pires, Ivan Miguel, and Coelho, Paulo Jorge

Subjects

TECHNOLOGY assessment, EQUILIBRIUM testing, FUNCTIONAL analysis, OLDER people, DYNAMIC balance (Mechanics), TREATMENT programs

Abstract

The functional reach test (FRT) is a clinical tool used to evaluate dynamic balance and fall risk in older adults and those with certain neurological diseases. It provides crucial information for developing rehabilitation programs to improve balance and reduce fall risk. This paper aims to describe a new tool to gather and analyze the data from inertial sensors to allow automation and increased reliability in the future by removing practitioner bias and facilitating the FRT procedure. A new tool for gathering and analyzing data from inertial sensors has been developed to remove practitioner bias and streamline the FRT procedure. The study involved 54 senior citizens using smartphones with sensors to execute FRT. The methods included using a mobile app to gather data, using sensor-fusion algorithms like the Madgwick algorithm to estimate orientation, and attempting to estimate location by twice integrating accelerometer data. However, accurate position estimation was difficult, highlighting the need for more research and development. The study highlights the benefits and drawbacks of automated balance assessment testing with mobile device sensors, highlighting the potential of technology to enhance conventional health evaluations. [ABSTRACT FROM AUTHOR]

Published

2024

7. Normalized effect size (NES): a novel feature selection model for Urdu fake news classification.

Author

Wasim, Muhammad, Cheema, Sehrish Munawar, and Pires, Ivan Miguel

Subjects

FAKE news, FEATURE selection, NATURAL language processing, SOCIAL media, NORMALIZED measures, URDU language, ATTRIBUTION of news

Abstract

Social media has become an essential source of news for everyday users. However, the rise of fake news on social media has made it more difficult for users to trust the information on these platforms. Most research studies focus on fake news detection in the English language, and only a limited number of studies deal with fake news in resource-poor languages such as Urdu. This article proposes a globally weighted term selection approach named normalized effect size (NES) to select highly discriminative features for Urdu fake news classification. The proposed model is based on the traditional inverse document frequency (TF-IDF) weighting measure. TF-IDF transforms the textual data into a weighted term-document matrix and is usually prone to the curse of dimensionality. Our novel statistical model filters the most discriminative terms to reduce the data's dimensionality and improve classification accuracy. We compare the proposed approach with the seven well-known feature selection and ranking techniques, namely normalized difference measure (NDM), binormal separation (BNS), odds ratio (OR), GINI, distinguished feature selector (DFS), information gain (IG), and Chi square (Chi). Our ensemble-based approach achieves high performance on two benchmark datasets, BET and UFN, achieving an accuracy of 88% and 90%, respectively. [ABSTRACT FROM AUTHOR]

Published

2023

8. Estimating the relative load from movement velocity in the seated chest press exercise in older adults.

Author

Marques, Diogo Luís, Neiva, Henrique Pereira, Marinho, Daniel Almeida, Pires, Ivan Miguel, Nunes, Célia, and Marques, Mário Cardoso

Subjects

CHEST exercises, OLDER people, RELATIVE velocity, ISOMETRIC exercise, VELOCITY, WEIGHT lifting, QUADRATIC equations

Abstract

Aim: This study aimed to i) determine the load-velocity relationship in the seated chest press in older adults, ii) compare the magnitude of the relationship between peak and mean velocity with the relative load, and iii) analyze the differences between sexes in movement velocity for each relative load in the chest press. Material and methods: Thirty-two older adults (17 women and 15 men; 79.6±7.7 years) performed a chest press progressive loading test up to the one-repetition maximum (1RM). The fastest peak and mean velocity reached with each weight were analyzed. Quadratic equations were developed for both sexes and the effectiveness of the regression model was analyzed through a residual analysis. The equations were cross-validated, considering the holdout method. The independent samples t-test analyzed i) the differences in the magnitude of the relationship between peak and mean velocity with the relative load and ii) the differences between sexes in the peak and mean velocity for each relative load. Results: It was possible to observe very strong quadratic load-velocity relationships in the seated chest press in women (peak velocity: r2 = 0.97, standard error of the estimate (SEE) = 4.5% 1RM; mean velocity: r2 = 0.96, SEE = 5.3% 1RM) and men (peak velocity: r2 = 0.98, SEE = 3.8% 1RM; mean velocity: r2 = 0.98, SEE = 3.8% 1RM) without differences (p>0.05) in the magnitude of the relationship between peak and mean velocity with the relative load. Furthermore, there was no overfitting in the regression models due to the high and positive correlation coefficients (r = 0.98–0.99). Finally, men presented higher (p<0.001) lifting velocities than women in almost all relative loads, except for 95–100% 1RM (p>0.05). Conclusion: Measuring repetition velocity during the seated chest press is an objective approach to estimating the relative load in older adults. Furthermore, given the velocity differences between older women and men at submaximal loads, it is recommended to use sex-specific equations to estimate and prescribe the relative loads in older adults. [ABSTRACT FROM AUTHOR]

Published

2023

9. Thought on Food: A Systematic Review of Current Approaches and Challenges for Food Intake Detection.

Author

Neves, Paulo Alexandre, Simões, João, Costa, Ricardo, Pimenta, Luís, Gonçalves, Norberto Jorge, Albuquerque, Carlos, Cunha, Carlos, Zdravevski, Eftim, Lameski, Petre, Garcia, Nuno M., and Pires, Ivan Miguel

Subjects

FOOD habits, FOOD science, NATURAL language processing, ALZHEIMER'S disease, NUTRITION, ARTIFICIAL intelligence, FOOD consumption

Abstract

Nowadays, individuals have very stressful lifestyles, affecting their nutritional habits. In the early stages of life, teenagers begin to exhibit bad habits and inadequate nutrition. Likewise, other people with dementia, Alzheimer's disease, or other conditions may not take food or medicine regularly. Therefore, the ability to monitor could be beneficial for them and for the doctors that can analyze the patterns of eating habits and their correlation with overall health. Many sensors help accurately detect food intake episodes, including electrogastrography, cameras, microphones, and inertial sensors. Accurate detection may provide better control to enable healthy nutrition habits. This paper presents a systematic review of the use of technology for food intake detection, focusing on the different sensors and methodologies used. The search was performed with a Natural Language Processing (NLP) framework that helps screen irrelevant studies while following the PRISMA methodology. It automatically searched and filtered the research studies in different databases, including PubMed, Springer, ACM, IEEE Xplore, MDPI, and Elsevier. Then, the manual analysis selected 30 papers based on the results of the framework for further analysis, which support the interest in using sensors for food intake detection and nutrition assessment. The mainly used sensors are cameras, inertial, and acoustic sensors that handle the recognition of food intake episodes with artificial intelligence techniques. This research identifies the most used sensors and data processing methodologies to detect food intake. [ABSTRACT FROM AUTHOR]

Published

2022

10. Smart Waste Management and Classification Systems Using Cutting Edge Approach.

Author

Cheema, Sehrish Munawar, Hannan, Abdul, and Pires, Ivan Miguel

Abstract

With a rapid increase in population, many problems arise in relation to waste dumps. These emits hazardous gases, which have negative effects on human health. The main issue is the domestic solid waste collection, management, and classification. According to studies, in America, nearly 75% of waste can be recycled, but there is a lack of a proper real-time waste-segregating mechanism, due to which only 30% of waste is being recycled at present. To maintain a clean and green environment, we need a smart waste management and classification system. To tackle the above-highlighted issue, we propose a real-time smart waste management and classification mechanism using a cutting-edge approach (SWMACM-CA). It uses the Internet of Things (IoT), deep learning (DL), and cutting-edge techniques to classify and segregate waste items in a dump area. Moreover, we propose a waste grid segmentation mechanism, which maps the pile at the waste yard into grid-like segments. A camera captures the waste yard image and sends it to an edge node to create a waste grid. The grid cell image segments act as a test image for trained deep learning, which can make a particular waste item prediction. The deep-learning algorithm used for this specific project is Visual Geometry Group with 16 layers (VGG16). The model is trained on a cloud server deployed at the edge node to minimize overall latency. By adopting hybrid and decentralized computing models, we can reduce the delay factor and efficiently use computational resources. The overall accuracy of the trained algorithm is over 90%, which is quite effective. Therefore, our proposed (SWMACM-CA) system provides more accurate results than existing state-of-the-art solutions, which is the core objective of this work. [ABSTRACT FROM AUTHOR]

Published

2022

11. A Brief Review on Gender Identification with Electrocardiography Data.

Author

Bastos, Eduarda Sofia, Duarte, Rui Pedro, Marinho, Francisco Alexandre, Rudenko, Roman, Denysyuk, Hanna Vitaliyivna, Gonçalves, Norberto Jorge, Zdravevski, Eftim, Albuquerque, Carlos, Garcia, Nuno M., and Pires, Ivan Miguel

Published

2022

12. IoAT Enabled Smart Farming: Urdu Language-Based Solution for Low-Literate Farmers.

Author

Cheema, Sehrish Munawar, Ali, Muhammad, Pires, Ivan Miguel, Gonçalves, Norberto Jorge, Naqvi, Mustahsan Hammad, and Hassan, Maleeha

Subjects

AGRICULTURAL resources, FARMERS, PEST control, TECHNOLOGICAL innovations, AGRICULTURAL productivity, SMART cities

Abstract

The agriculture sector is the backbone of Pakistan's economy, reflecting 26% of its GPD and 43% of the entire labor force. Smart and precise agriculture is the key to producing the best crop yield. Moreover, emerging technologies are reducing energy consumption and cost-effectiveness for saving agricultural resources in control and monitoring systems, especially for those areas lacking these resources. Agricultural productivity is thwarted in many areas of Pakistan due to farmers' illiteracy, lack of a smart system for remote access to farmland, and an absence of proactive decision-making in all phases of the crop cycle available in their native language. This study proposes an internet of agricultural things (IoAT) based smart system armed with a set of economical, accessible devices and sensors to capture real-time parameters of farms such as soil moisture level, temperature, soil pH level, light intensity, and humidity on frequent intervals of time. The system analyzes the environmental parameters of specific farms and enables the farmers to understand soil and environmental factors, facilitating farmers in terms of soil fertility analysis, suitable crop cultivation, automated irrigation and guidelines, harvest schedule, pest and weed control, crop disease awareness, and fertilizer guidance. The system is integrated with an android application 'Kistan Pakistan' (prototype) designed in bilingual, i.e., 'Urdu' and 'English'. The mobile application is equipped with visual components, audio, voice, and iconic and textual menus to be used by diverse literary levels of farmers. [ABSTRACT FROM AUTHOR]

Published

2022

13. Retinal Glaucoma Public Datasets: What Do We Have and What Is Missing?

Author

Camara, José, Rezende, Roberto, Pires, Ivan Miguel, and Cunha, António

Subjects

DEEP learning, GLAUCOMA, IMAGE segmentation, IMAGE databases, TREATMENT delay (Medicine), AGROBACTERIUM tumefaciens

Abstract

Public databases for glaucoma studies contain color images of the retina, emphasizing the optic papilla. These databases are intended for research and standardized automated methodologies such as those using deep learning techniques. These techniques are used to solve complex problems in medical imaging, particularly in the automated screening of glaucomatous disease. The development of deep learning techniques has demonstrated potential for implementing protocols for large-scale glaucoma screening in the population, eliminating possible diagnostic doubts among specialists, and benefiting early treatment to delay the onset of blindness. However, the images are obtained by different cameras, in distinct locations, and from various population groups and are centered on multiple parts of the retina. We can also cite the small number of data, the lack of segmentation of the optic papillae, and the excavation. This work is intended to offer contributions to the structure and presentation of public databases used in the automated screening of glaucomatous papillae, adding relevant information from a medical point of view. The gold standard public databases present images with segmentations of the disc and cupping made by experts and division between training and test groups, serving as a reference for use in deep learning architectures. However, the data offered are not interchangeable. The quality and presentation of images are heterogeneous. Moreover, the databases use different criteria for binary classification with and without glaucoma, do not offer simultaneous pictures of the two eyes, and do not contain elements for early diagnosis. [ABSTRACT FROM AUTHOR]

Published

2022

14. A Brief Review on Internet of Things, Industry 4.0 and Cybersecurity.

Author

Rudenko, Roman, Pires, Ivan Miguel, Oliveira, Paula, Barroso, João, and Reis, Arsénio

Subjects

INTERNET of things, INDUSTRY 4.0, INTERNET security, MANUFACTURING processes

Abstract

The advance of industrialization regarding the optimization of production to obtain greater productivity and consequently generate more profits has led to the emergence of Industry 4.0, which aims to create an environment called smart manufacturing. On the other hand, the Internet of Things is a global network of interrelated physical devices, such as sensors, actuators, intelligent applications, computers, mechanical machines, objects, and people, becoming an essential part of the Internet. These devices are data sources that provide abundant information on manufacturing processes in an industrial environment. A concern of this type of system is processing large sets of data and generating knowledge. These challenges often raise concerns about security, more specifically cybersecurity. Good cybersecurity practices make it possible to avoid damage to production lines and information. With the growing increase in threats in terms of security, this paper aims to carry out a review of existing technologies about cybersecurity in intelligent manufacturing and an introduction to the architecture of the IoT and smart manufacturing. [ABSTRACT FROM AUTHOR]

Published

2022

15. A Brief Review on 4D Weather Visualization.

Author

Rudenko, Roman, Pires, Ivan Miguel, Liberato, Margarida, Barroso, João, and Reis, Arsénio

Abstract

The accelerated changes on our planet have led to a growing interest in climate change and its consequences: natural hazards and adverse socio-economic impacts. However, the development of climate research and the proliferation of datasets require an integrated and efficient approach to the analysis, investigation, and visualization of atmospheric meteorological data. Thus, we propose a literature review of existing systems viewing meteorological phenomena in four and three dimensions. Moreover, we evaluate meteorological occurrences to better understand the dynamics associated with a meteorological phenomenon and visualize different weather data. Based on the investigation of tools and methods, we consider the existence of different ways of representing meteorological data and methodologies. However, it was imperative to obtain knowledge and create our way of visualizing weather data. This article found eleven existing solutions for 4D meteorological visualization and meteorological phenomena. [ABSTRACT FROM AUTHOR]

Published

2022

16. Can the Eight Hop Test Be Measured with Sensors? A Systematic Review.

Author

Pimenta, Luís, Garcia, Nuno M., Zdravevski, Eftim, Chorbev, Ivan, Trajkovik, Vladimir, Lameski, Petre, Albuquerque, Carlos, and Pires, Ivan Miguel

Subjects

LEG injuries, LIGAMENT injuries, DETECTORS, TENDON injuries, PHYSICAL mobility

Abstract

Rehabilitation aims to increase the independence and physical function after injury, surgery, or other trauma, so that patients can recover to their previous ability as much as possible. To be able to measure the degree of recovery and impact of the treatment, various functional performance tests are used. The Eight Hop Test is a hop exercise that is directly linked to the rehabilitation of people suffering from tendon and ligament injuries on the lower limb. This paper presents a systematic review on the use of sensors for measuring functional movements during the execution of the Eight Hop Test, focusing primarily on the use of sensors, related diseases, and different methods implemented. Firstly, an automated search was performed on the publication databases: PubMed, Springer, ACM, IEEE Xplore, MDPI, and Elsevier. Secondly, the publications related to the Eight-Hop Test and sensors were filtered according to several search criteria and 15 papers were finally selected to be analyzed in detail. Our analysis found that the Eight Hop Test measurements can be performed with motion, force, and imaging sensors. [ABSTRACT FROM AUTHOR]

Published

2022

17. A Comprehensive Review of Methods and Equipment for Aiding Automatic Glaucoma Tracking.

Author

Camara, José, Neto, Alexandre, Pires, Ivan Miguel, Villasana, María Vanessa, Zdravevski, Eftim, and Cunha, António

Subjects

AUTOMATIC tracking, VISUAL fields, NERVE fibers, OPTICAL images, GLAUCOMA

Abstract

Glaucoma is a chronic optic neuropathy characterized by irreversible damage to the retinal nerve fiber layer (RNFL), resulting in changes in the visual field (VC). Glaucoma screening is performed through a complete ophthalmological examination, using images of the optic papilla obtained in vivo for the evaluation of glaucomatous characteristics, eye pressure, and visual field. Identifying the glaucomatous papilla is quite important, as optical papillary images are considered the gold standard for tracking. Therefore, this article presents a review of the diagnostic methods used to identify the glaucomatous papilla through technology over the last five years. Based on the analyzed works, the current state-of-the-art methods are identified, the current challenges are analyzed, and the shortcomings of these methods are investigated, especially from the point of view of automation and independence in performing these measurements. Finally, the topics for future work and the challenges that need to be solved are proposed. [ABSTRACT FROM AUTHOR]

Published

2022

18. A Systematic Review of Artificial Intelligence Applications Used for Inherited Retinal Disease Management.

Author

Esengönül, Meltem, Marta, Ana, Beirão, João, Pires, Ivan Miguel, and Cunha, António

Subjects

ARTIFICIAL intelligence, NATURAL language processing, RETINAL diseases, GENETIC disorders, DISEASE management

Abstract

Nowadays, Artificial Intelligence (AI) and its subfields, Machine Learning (ML) and Deep Learning (DL), are used for a variety of medical applications. It can help clinicians track the patient's illness cycle, assist with diagnosis, and offer appropriate therapy alternatives. Each approach employed may address one or more AI problems, such as segmentation, prediction, recognition, classification, and regression. However, the amount of AI-featured research on Inherited Retinal Diseases (IRDs) is currently limited. Thus, this study aims to examine artificial intelligence approaches used in managing Inherited Retinal Disorders, from diagnosis to treatment. A total of 20,906 articles were identified using the Natural Language Processing (NLP) method from the IEEE Xplore, Springer, Elsevier, MDPI, and PubMed databases, and papers submitted from 2010 to 30 October 2021 are included in this systematic review. The resultant study demonstrates the AI approaches utilized on images from different IRD patient categories and the most utilized AI architectures and models with their imaging modalities, identifying the main benefits and challenges of using such methods. [ABSTRACT FROM AUTHOR]

Published

2022

19. Daily motionless activities: A dataset with accelerometer, magnetometer, gyroscope, environment, and GPS data.

Author

Pires, Ivan Miguel, Garcia, Nuno M., Zdravevski, Eftim, and Lameski, Petre

Subjects

AUTOMOTIVE navigation systems, GYROSCOPES, MAGNETOMETERS, MICROPHONES, MOTION detectors, ACCELEROMETERS, ACTIVITIES of daily living, ARTIFICIAL intelligence

Abstract

The dataset presented in this paper presents a dataset related to three motionless activities, including driving, watching TV, and sleeping. During these activities, the mobile device may be positioned in different locations, including the pants pockets, in a wristband, over the bedside table, on a table, inside the car, or on other furniture, for the acquisition of accelerometer, magnetometer, gyroscope, GPS, and microphone data. The data was collected by 25 individuals (15 men and 10 women) in different environments in Covilhã and Fundão municipalities (Portugal). The dataset includes the sensors' captures related to a minimum of 2000 captures for each motionless activity, which corresponds to 2.8 h (approximately) for each one. This dataset includes 8.4 h (approximately) of captures for further analysis with data processing techniques, and machine learning methods. It will be useful for the complementary creation of a robust method for the identification of these type of activities. Measurement(s) motion sensors • GPS navigation system • Microphone Device • physical activity Technology Type(s) Smartphone Application • Artificial Intelligence Factor Type(s) raw data Sample Characteristic - Organism Individual Behavior Sample Characteristic - Environment road • house Sample Characteristic - Location Municipality of Fundao • Municipality of Covilha [ABSTRACT FROM AUTHOR]

Published

2022

20. Smart Objects and Technologies for Social Good.

Author

Pires, Ivan Miguel

Subjects

YOUNG adults, COMPUTER engineering, ARTIFICIAL intelligence, INDIVIDUALIZED medicine, COMPUTER science

Abstract

In the context of a smart city, the collected data may be used with machine learning techniques to forecast unforeseen occurrences. Social goods are commodities and services that for-profit businesses, government agencies, or private enterprises may offer. Additionally, intelligent environments contain a variety of sensors, including motion, touch, door, and light sensors. [Extracted from the article]

Published

2022

21. Mobile application for Inclusive Tourism.

Author

Ponciano, Vasco, Reinaldo Ribeiro, Fernando, Pires, Ivan Miguel, and Garcia, Nuno M.

Subjects

MOBILE app development, PACKAGE tours, TOURISM economics, DIGITAL technology, GLOBAL Positioning System, MAGNETOMETERS

Abstract

Tourism is one of the most important economic sectors for Portugal and many countries in the world. With the emergence of low-cost aviation companies, this sector's growth has been exponential. Hence, operators, municipalities, and governments have to adapt to this new world order. A part of the world population that intends to visit has some type of disabilities. On the other hand, as the development of digital platforms, namely at the level of mobile devices, here opens many opportunities to be explored in this binomial between people with disabilities, their willingness to practice tourism, and the use of mobile devices for this purpose. This article intends to present a mobile application developed that allows the practice of inclusive tourism, using google maps and using an algorithm that helps classify the level of accessibility of each point of tourist interest. Finally, it allows the person with disabilities to know at the outset whether that point is inaccessible to its characteristics. [ABSTRACT FROM AUTHOR]

Published

2021

22. Sensors are Capable to Help in the Measurement of the Results of the Timed-Up and Go Test? A Systematic Review.

Author

Ponciano, Vasco, Pires, Ivan Miguel, Ribeiro, Fernando Reinaldo, and Spinsante, Susanna

Abstract

The analysis of movements used in physiotherapy areas related to the elderly is becoming increasingly important due to factors such as the increase in the average life expectancy and the rate of elderly people over the whole population. In this systematic review, we try to determine how the inertial sensors embedded in mobile devices are exploited for the measurement of the different parameters involved in the Timed-Up and Go test. The results show the mobile devices equipped with onboard motion sensors can be exploited for these types of studies: the most commonly used sensors are the magnetometer, accelerometer and gyroscope available in consumer off-the-shelf smartphones. Other features typically used to evaluate the Timed-Up and Go test are the time duration, the angular velocity and the number of steps, allowing for the recognition of some diseases as well as the measurement of the subject’s performance during the test execution. [ABSTRACT FROM AUTHOR]

Published

2020

23. Advancing methods in big data capture, integration, classification and liberation.

Author

Zdravevski, Eftim and Pires, Ivan Miguel

Subjects

RESEARCH methodology, CLASSIFICATION, INDUSTRIAL research, BIG data

Abstract

This special issue focuses on the importance of advancing research techniques for managing and analyzing data in today's data-rich landscape. In this editorial, we set the context and invite contributions for a BMC Collection of articles titled 'Advancing methods in data capture, integration, classification and liberation'. The collection emphasizes the need for efficient ways to standardize, cleanse, integrate, enrich, and liberate data, highlighting recent advancements in research methods and industrial technologies that facilitate this. We invite researchers to submit their best work to the collection and to showcase the latest advancements and additions to research techniques. [ABSTRACT FROM AUTHOR]

Published

2023

24. User Environment Detection with Acoustic Sensors Embedded on Mobile Devices for the Recognition of Activities of Daily Living.

Author

Pires, Ivan Miguel, Garcia, Nuno M., Pombo, Nuno, Flrez-Revuelta, Francisco, Spinsante, Susanna, Teixeira, Maria Canavarro, and Zdravevski, Eftim

Subjects

ACTIVITIES of daily living, MICROPHONE arrays, MICROPHONES, ARTIFICIAL neural networks, PATTERN perception

Abstract

The detection of the environment where the user is located, is of extreme use for the identification of Activities of Daily Living (ADL). ADL can be identified by use of the sensors available in many off-the-shelf mobile devices, including magnetic and motion, and the environment can be also identified using acoustic sensors. The main objective of this study is to recognize the environments and some standing ADL to include in the development of a framework for the recognition of ADL and its environments. The study presented in this paper is divided in two parts: firstly, we discuss the recognition of the environment using acoustic sensors (i.e., microphone), and secondly, we fuse this information with motion and magnetic sensors (i.e., motion and magnetic sensors) for the recognition of standing ADL. The recognition of the environments and the ADL are performed using pattern recognition techniques, in order to develop a system that includes data acquisition, data processing, data fusion, and classification methods. The classification methods explored in this study are composed by different types of Artificial Neural Networks (ANN), comparing the different types of ANN and selecting the best methods to implement in the different stages of the system developed. Conclusions point to the use of Deep Neural Networks (DNN) with normalized data for the identification of ADL with 85.89% of accuracy, the use of Feedforward Neural Networks (FNN) with non-normalized data for the identification of the environments with 86.50% of accuracy, and the use of DNN method with normalized data for the identification of standing activities with 100% of accuracy. [ABSTRACT FROM AUTHOR]

Published

2019

25. Validation of a method for the estimation of energy expenditure during physical activity using a mobile device accelerometer.

Author

Pires, Ivan Miguel, Felizardo, Virginie, Pombo, Nuno, Drobics, Mario, Garcia, Nuno M., and Flórez-Revuelta, Francisco

Subjects

ENERGY consumption, PHYSICAL activity, MOBILE operating systems, ACCELEROMETERS, SMARTPHONES

Abstract

The main goal of this paper consists on the adaption and validation of a method for the measurement of the energy expenditure during physical activities. Sensors available in a mobile device, e.g., a smartphone, a smartwatch, or others, allow the capture of several signals, which may be used to the estimation of the energy expenditure. The adaption consists in the comparison between the units of the data acquired by a tri-axial accelerometer and a mobile device accelerometer. The tests were performed by healthy people with ages between 12 and 50 years old that performed several activities, such as standing, gym (walking), climbing stairs, walking, jumping, running, playing tennis, and squatting, with a mobile device on the waist. The validation of the method showed that the energy expenditure is underestimated and super estimated in some cases, but with reliable results. The creation of a validated method for the measurement of energy expenditure during physical activities capable for the implementation in a mobile application is an important issue for increase the acceptance of the mobile applications in the market. As verified the results obtained are around 124.6 kcal/h, for walking activity, and 149.7 kcal/h, for running activity. [ABSTRACT FROM AUTHOR]

Published

2018

26. Approach for the Development of a Framework for the Identification of Activities of Daily Living Using Sensors in Mobile Devices.

Author

Pires, Ivan Miguel, Garcia, Nuno M., Pombo, Nuno, Flórez-Revuelta, Francisco, and Spinsante, Susanna

Subjects

AUTOMATIC identification, ACTIVITIES of daily living, DATA acquisition systems, MULTISENSOR data fusion, PATTERN recognition systems, CELL phones

Abstract

Sensors available on mobile devices allow the automatic identification of Activities of Daily Living (ADL). This paper describes an approach for the creation of a framework for the identification of ADL, taking into account several concepts, including data acquisition, data processing, data fusion, and pattern recognition. These concepts can be mapped onto different modules of the framework. The proposed framework should perform the identification of ADL without Internet connection, performing these tasks locally on the mobile device, taking in account the hardware and software limitations of these devices. The main purpose of this paper is to present a new approach for the creation of a framework for the recognition of ADL, analyzing the allowed sensors available in the mobile devices, and the existing methods available in the literature. [ABSTRACT FROM AUTHOR]

Published

2018

27. Recognition of Activities of Daily Living Based on Environmental Analyses Using Audio Fingerprinting Techniques: A Systematic Review.

Author

Pires, Ivan Miguel, Santos, Rui, Pombo, Nuno, Garcia, Nuno M., Flórez-Revuelta, Francisco, Spinsante, Susanna, Goleva, Rossitza, and Zdravevski, Eftim

Subjects

ACOUSTIC signal processing, HUMAN fingerprints, ACTIVITIES of daily living, SOUND retrieval, PATTERN recognition systems

Abstract

An increase in the accuracy of identification of Activities of Daily Living (ADL) is very important for different goals of Enhanced Living Environments and for Ambient Assisted Living (AAL) tasks. This increase may be achieved through identification of the surrounding environment. Although this is usually used to identify the location, ADL recognition can be improved with the identification of the sound in that particular environment. This paper reviews audio fingerprinting techniques that can be used with the acoustic data acquired from mobile devices. A comprehensive literature search was conducted in order to identify relevant English language works aimed at the identification of the environment of ADLs using data acquired with mobile devices, published between 2002 and 2017. In total, 40 studies were analyzed and selected from 115 citations. The results highlight several audio fingerprinting techniques, including Modified discrete cosine transform (MDCT), Mel-frequency cepstrum coefficients (MFCC), Principal Component Analysis (PCA), Fast Fourier Transform (FFT), Gaussian mixture models (GMM), likelihood estimation, logarithmic moduled complex lapped transform (LMCLT), support vector machine (SVM), constant Q transform (CQT), symmetric pairwise boosting (SPB), Philips robust hash (PRH), linear discriminant analysis (LDA) and discrete cosine transform (DCT). [ABSTRACT FROM AUTHOR]

Published

2018

28. Identification of Activities of Daily Living Using Sensors Available in off-the-shelf Mobile Devices: Research and Hypothesis.

Author

Pires, Ivan Miguel, Garcia, Nuno M., Pombo, Nuno, and Flórez-Revuelta, Francisco

Published

2016

29. Validation Techniques for Sensor Data in Mobile Health Applications.

Author

Pires, Ivan Miguel, Garcia, Nuno M., Pombo, Nuno, Flórez-Revuelta, Francisco, and Rodríguez, Natalia Díaz

Subjects

MOBILE health, MOBILE apps, BIOSENSORS, CLASSIFICATION algorithms, QUANTITATIVE research

Abstract

Mobile applications have become a must in every user’s smart device, and many of these applications make use of the device sensors’ to achieve its goal. Nevertheless, it remains fairly unknown to the user to which extent the data the applications use can be relied upon and, therefore, to which extent the output of a given application is trustworthy or not. To help developers and researchers and to provide a common ground of data validation algorithms and techniques, this paper presents a review of the most commonly used data validation algorithms, along with its usage scenarios, and proposes a classification for these algorithms. This paper also discusses the process of achieving statistical significance and trust for the desired output. [ABSTRACT FROM AUTHOR]

Published

2016

30. From Data Acquisition to Data Fusion: A Comprehensive Review and a Roadmap for the Identification of Activities of Daily Living Using Mobile Devices.

Author

Pires, Ivan Miguel, Garcia, Nuno M., Pombo, Nuno, and Flórez-Revuelta, Francisco

Subjects

DETECTORS, MOBILE operating systems, MULTISENSOR data fusion, ACTIVITIES of daily living, ALGORITHMS

Abstract

This paper focuses on the research on the state of the art for sensor fusion techniques, applied to the sensors embedded in mobile devices, as a means to help identify the mobile device user's daily activities. Sensor data fusion techniques are used to consolidate the data collected from several sensors, increasing the reliability of the algorithms for the identification of the different activities. However, mobile devices have several constraints, e.g., low memory, low battery life and low processing power, and some data fusion techniques are not suited to this scenario. The main purpose of this paper is to present an overview of the state of the art to identify examples of sensor data fusion techniques that can be applied to the sensors available in mobile devices aiming to identify activities of daily living (ADLs). [ABSTRACT FROM AUTHOR]

Published

2016

31. Detection and Mosaicing Techniques for Low-Quality Retinal Videos.

Author

Camara, José, Silva, Bruno, Gouveia, António, Pires, Ivan Miguel, Coelho, Paulo, and Cunha, António

Subjects

HOUGH transforms, OBJECT recognition (Computer vision), DIAGNOSIS, IMAGE processing, MEDICAL screening, RETINAL blood vessels

Abstract

Ideally, to carry out screening for eye diseases, it is expected to use specialized medical equipment to capture retinal fundus images. However, since this kind of equipment is generally expensive and has low portability, and with the development of technology and the emergence of smartphones, new portable and cheaper screening options have emerged, one of them being the D-Eye device. When compared to specialized equipment, this equipment and other similar devices associated with a smartphone present lower quality and less field-of-view in the retinal video captured, yet with sufficient quality to perform a medical pre-screening. Individuals can be referred for specialized screening to obtain a medical diagnosis if necessary. Two methods were proposed to extract the relevant regions from these lower-quality videos (the retinal zone). The first one is based on classical image processing approaches such as thresholds and Hough Circle transform. The other performs the extraction of the retinal location by applying a neural network, which is one of the methods reported in the literature with good performance for object detection, the YOLO v4, which was demonstrated to be the preferred method to apply. A mosaicing technique was implemented from the relevant retina regions to obtain a more informative single image with a higher field of view. It was divided into two stages: the GLAMpoints neural network was applied to extract relevant points in the first stage. Some homography transformations are carried out to have in the same referential the overlap of common regions of the images. In the second stage, a smoothing process was performed in the transition between images. [ABSTRACT FROM AUTHOR]

Published

2022

32. GAN-Based Image Colorization for Self-Supervised Visual Feature Learning.

Author

Treneska, Sandra, Zdravevski, Eftim, Pires, Ivan Miguel, Lameski, Petre, and Gievska, Sonja

Subjects

VISUAL learning, NEURAL computers, GENERATIVE adversarial networks, COMPUTER vision, SUPERVISED learning, TASK performance, SELF-efficacy

Abstract

Large-scale labeled datasets are generally necessary for successfully training a deep neural network in the computer vision domain. In order to avoid the costly and tedious work of manually annotating image datasets, self-supervised learning methods have been proposed to learn general visual features automatically. In this paper, we first focus on image colorization with generative adversarial networks (GANs) because of their ability to generate the most realistic colorization results. Then, via transfer learning, we use this as a proxy task for visual understanding. Particularly, we propose to use conditional GANs (cGANs) for image colorization and transfer the gained knowledge to two other downstream tasks, namely, multilabel image classification and semantic segmentation. This is the first time that GANs have been used for self-supervised feature learning through image colorization. Through extensive experiments with the COCO and Pascal datasets, we show an increase of 5% for the classification task and 2.5% for the segmentation task. This demonstrates that image colorization with conditional GANs can boost other downstream tasks' performance without the need for manual annotation. [ABSTRACT FROM AUTHOR]

Published

2022

33. Literature Review on Artificial Intelligence Methods for Glaucoma Screening, Segmentation, and Classification.

Author

Camara, José, Neto, Alexandre, Pires, Ivan Miguel, Villasana, María Vanessa, Zdravevski, Eftim, and Cunha, António

Subjects

GLAUCOMA diagnosis, ARTIFICIAL intelligence, IMAGE segmentation, COMPUTER-aided design, DEEP learning, DIGITAL cameras

Abstract

Artificial intelligence techniques are now being applied in different medical solutions ranging from disease screening to activity recognition and computer-aided diagnosis. The combination of computer science methods and medical knowledge facilitates and improves the accuracy of the different processes and tools. Inspired by these advances, this paper performs a literature review focused on state-of-the-art glaucoma screening, segmentation, and classification based on images of the papilla and excavation using deep learning techniques. These techniques have been shown to have high sensitivity and specificity in glaucoma screening based on papilla and excavation images. The automatic segmentation of the contours of the optic disc and the excavation then allows the identification and assessment of the glaucomatous disease's progression. As a result, we verified whether deep learning techniques may be helpful in performing accurate and low-cost measurements related to glaucoma, which may promote patient empowerment and help medical doctors better monitor patients. [ABSTRACT FROM AUTHOR]

Published

2022

34. Development Technologies for the Monitoring of Six-Minute Walk Test: A Systematic Review.

Author

Pires, Ivan Miguel, Denysyuk, Hanna Vitaliyivna, Villasana, María Vanessa, Sá, Juliana, Marques, Diogo Luís, Morgado, José Francisco, Albuquerque, Carlos, and Zdravevski, Eftim

Subjects

EXERCISE intensity, MAGNETIC sensors, AEROBIC capacity, EXERCISE tests, LUNG diseases, FILTER paper, DIGITAL libraries, MOTION capture (Human mechanics)

Abstract

In the pandemic time, the monitoring of the progression of some diseases is affected and rehabilitation is more complicated. Remote monitoring may help solve this problem using mobile devices that embed low-cost sensors, which can help measure different physical parameters. Many tests can be applied remotely, one of which is the six-minute walk test (6MWT). The 6MWT is a sub-maximal exercise test that assesses aerobic capacity and endurance, allowing early detection of emerging medical conditions with changes. This paper presents a systematic review of the use of sensors to measure the different physical parameters during the performance of 6MWT, focusing on various diseases, sensors, and implemented methodologies. It was performed with the PRISMA methodology, where the search was conducted in different databases, including IEEE Xplore, ACM Digital Library, ScienceDirect, and PubMed Central. After filtering the papers related to 6MWT and sensors, we selected 31 papers that were analyzed in more detail. Our analysis discovered that the measurements of 6MWT are primarily performed with inertial and magnetic sensors. Likewise, most research studies related to this test focus on multiple sclerosis and pulmonary diseases. [ABSTRACT FROM AUTHOR]

Published

2022

35. Mobile 5P-Medicine Approach for Cardiovascular Patients.

Author

Pires, Ivan Miguel, Denysyuk, Hanna Vitaliyivna, Villasana, María Vanessa, Sá, Juliana, Lameski, Petre, Chorbev, Ivan, Zdravevski, Eftim, Trajkovik, Vladimir, Morgado, José Francisco, and Garcia, Nuno M.

Subjects

ARTIFICIAL intelligence, PATIENT participation, MEDICAL personnel, SMART devices, CARDIOVASCULAR diseases, SMARTPHONES, STRUCTURAL health monitoring

Abstract

Medicine is heading towards personalized care based on individual situations and conditions. With smartphones and increasingly miniaturized wearable devices, the sensors available on these devices can perform long-term continuous monitoring of several user health-related parameters, making them a powerful tool for a new medicine approach for these patients. Our proposed system, described in this article, aims to develop innovative solutions based on artificial intelligence techniques to empower patients with cardiovascular disease. These solutions will realize a novel 5P (Predictive, Preventive, Participatory, Personalized, and Precision) medicine approach by providing patients with personalized plans for treatment and increasing their ability for self-monitoring. Such capabilities will be derived by learning algorithms from physiological data and behavioral information, collected using wearables and smart devices worn by patients with health conditions. Further, developing an innovative system of smart algorithms will also focus on providing monitoring techniques, predicting extreme events, generating alarms with varying health parameters, and offering opportunities to maintain active engagement of patients in the healthcare process by promoting the adoption of healthy behaviors and well-being outcomes. The multiple features of this future system will increase the quality of life for cardiovascular diseases patients and provide seamless contact with a healthcare professional. [ABSTRACT FROM AUTHOR]

Published

2021

36. A Portable Smart Fitness Suite for Real-Time Exercise Monitoring and Posture Correction.

Author

Hannan, Abdul, Shafiq, Muhammad Zohaib, Hussain, Faisal, and Pires, Ivan Miguel

Subjects

COVID-19 pandemic, POSTURE, PHYSICAL fitness, HUMAN activity recognition, MOTION detectors

Abstract

Fitness and sport have drawn significant attention in wearable and persuasive computing. Physical activities are worthwhile for health, well-being, improved fitness levels, lower mental pressure and tension levels. Nonetheless, during high-power and commanding workouts, there is a high likelihood that physical fitness is seriously influenced. Jarring motions and improper posture during workouts can lead to temporary or permanent disability. With the advent of technological advances, activity acknowledgment dependent on wearable sensors has pulled in countless studies. Still, a fully portable smart fitness suite is not industrialized, which is the central need of today's time, especially in the Covid-19 pandemic. Considering the effectiveness of this issue, we proposed a fully portable smart fitness suite for the household to carry on their routine exercises without any physical gym trainer and gym environment. The proposed system considers two exercises, i.e., T-bar and bicep curl with the assistance of the virtual real-time android application, acting as a gym trainer overall. The proposed fitness suite is embedded with a gyroscope and EMG sensory modules for performing the above two exercises. It provided alerts on unhealthy, wrong posture movements over an android app and is guided to the best possible posture based on sensor values. The KNN classification model is used for prediction and guidance for the user while performing a particular exercise with the help of an android application-based virtual gym trainer through a text-to-speech module. The proposed system attained 89% accuracy, which is quite effective with portability and a virtually assisted gym trainer feature. [ABSTRACT FROM AUTHOR]

Published

2021

37. Mindfulness-Based Interventions to Reduce Burnout in Primary Healthcare Professionals: A Systematic Review and Meta-Analysis.

Author

Salvado, Mafalda, Marques, Diogo Luís, Pires, Ivan Miguel, and Silva, Nádia Mendes

Subjects

MEDICAL personnel, PSYCHOLOGICAL burnout, META-analysis, CONFIDENCE intervals, DEPERSONALIZATION

Abstract

Mindfulness-based interventions (MBIs) are reported by experimental studies as practical approaches to reduce burnout in primary healthcare professionals (PHCP). However, to date, no research has synthesized the evidence to determine the overall effects of MBIs for reducing burnout in PHCP. We conducted a systematic review and meta-analysis to analyze the effects of MBIs to reduce burnout in PHCP. We searched articles in the PubMed/MEDLINE, Web of Science, Cochrane, and Scopus databases from inception to September 2021 using MeSH terms: "mindfulness", "burnout", and "primary healthcare". Two reviewers extracted the data and assessed the risk of bias. We used a random-effects meta-analysis to calculate the standardized mean differences (SMD) and mean differences (MD) with 95% confidence intervals (CI) of emotional exhaustion (EE), depersonalization (DP), and personal accomplishment (PA) domains of burnout. Of 61 records, ten were included (n = 417). Overall, the studies were rated as having a high risk of bias and limited quality evidence. MBIs significantly reduced EE (SMD = −0.54, 95%CI: −0.72 to −0.36; MD = −5.89, 95%CI: −7.72 to −4.05), DP (SMD = −0.34, 95%CI: −0.52 to −0.17; MD = −1.96, 95%CI: −2.96 to −0.95), and significantly increased PA (SMD = 0.34, 95%CI: 0.17 to 0.52; MD = 2.05, 95%CI: 1.04 to 3.06). Although further high-quality research is needed, our findings support the implementation of MBIs for reducing burnout in PHCP. [ABSTRACT FROM AUTHOR]

Published

2021

38. Experimental Study on Wound Area Measurement with Mobile Devices.

Author

Ferreira, Filipe, Pires, Ivan Miguel, Ponciano, Vasco, Costa, Mónica, Villasana, María Vanessa, Garcia, Nuno M., Zdravevski, Eftim, Lameski, Petre, Chorbev, Ivan, Mihajlov, Martin, and Trajkovik, Vladimir

Subjects

AREA measurement, ARTIFICIAL intelligence, MEDICAL personnel, CAREGIVERS, PATTERN recognition systems

Abstract

Healthcare treatments might benefit from advances in artificial intelligence and technological equipment such as smartphones and smartwatches. The presence of cameras in these devices with increasingly robust and precise pattern recognition techniques can facilitate the estimation of the wound area and other telemedicine measurements. Currently, telemedicine is vital to the maintenance of the quality of the treatments remotely. This study proposes a method for measuring the wound area with mobile devices. The proposed approach relies on a multi-step process consisting of image capture, conversion to grayscale, blurring, application of a threshold with segmentation, identification of the wound part, dilation and erosion of the detected wound section, identification of accurate data related to the image, and measurement of the wound area. The proposed method was implemented with the OpenCV framework. Thus, it is a solution for healthcare systems by which to investigate and treat people with skin-related diseases. The proof-of-concept was performed with a static dataset of camera images on a desktop computer. After we validated the approach's feasibility, we implemented the method in a mobile application that allows for communication between patients, caregivers, and healthcare professionals. [ABSTRACT FROM AUTHOR]

Published

2021

39. Monitoring the Health and Residence Conditions of Elderly People, Using LoRa and the Things Network.

Author

Lousado, José Paulo, Pires, Ivan Miguel, Zdravevski, Eftim, and Antunes, Sandra

Subjects

OLDER people, QUALITY of life, HEALTH services accessibility, ELECTRONIC data processing

Abstract

The rapid development and widespread use of information and telecommunication technologies do not mitigate, in many situations, information exclusion, nor the physical isolation of people—mainly that of the elderly living in remote locations, whose mobile network coverage is deficient or non-existent, preventing them from accessing health care, be it routine follow-up procedures or emergencies. Addressing this, we raise the question that guides our study: how can we monitor the elderly's residence and health conditions, detect falls, and track their movement in the vicinity of their homes in a non-intrusive manner? To answer this question, we present a system prototype that uses affordable, low-cost, and low-energy equipment with media and data processing, supported by LoRa (Long Range) and ESP32 microcontrollers, coupling several sensors. As a result, it is possible to monitor sensors that predict and detect falls or other risk events for the user, e.g., fire, with authorized persons and entities, family members, civil protection, and security forces accessing the gathered data, assuring their security. We conclude that the system could decisively improve people's quality of life, particularly those of the elderly who live in remote places with greater vulnerability. [ABSTRACT FROM AUTHOR]

Published

2021

40. Rural Healthcare IoT Architecture Based on Low-Energy LoRa.

Author

Dimitrievski, Ace, Filiposka, Sonja, Melero, Francisco José, Zdravevski, Eftim, Lameski, Petre, Pires, Ivan Miguel, Garcia, Nuno M., Lousado, José Paulo, and Trajkovik, Vladimir

Published

2021

41. RespiraConNosotros: A Viable Home-Based Telerehabilitation System for Respiratory Patients.

Author

Bermejo-Gil, Beatriz María, Pérez-Robledo, Fátima, Llamas-Ramos, Rocío, Silva, Luís Augusto, Sales-Mendes, André, Leithardt, Valderi Reis Quietinho, Llamas-Ramos, Inés, and Pires, Ivan Miguel Serrano

Subjects

TELEREHABILITATION, RESPIRATORY organs, COVID-19, SARS-CoV-2, HOSPITAL admission & discharge

Abstract

Currently, there are more than 1.55 million cases of SARS-CoV-2 infection in Spain. Of these, it is estimated that around 45% will present respiratory complications, which represents approximately 620,000 patients who will need respiratory rehabilitation. The health system has no resources for this huge quantity of patients after the hospital discharge to finish the complete recovery and avoid the chronicity of the symptoms. We propose an application named RespiraConNosotros. The application has been created and designed to guide users in performing respiratory rehabilitation exercises, especially for COVID-19 patients, and it also facilitates patient–physiotherapist contact via chat or video calling to help patients. It is accessible for all users and on all devices. All exercises would be guided and supervised by a specialized physiotherapist who suggests, adapts, and guides the exercise according to the function level of each patient. Data obtained was satisfactory; all patients pointed out the easy access, the intuitive format, and the advantage of communicating with an expert. Concerning functional assessment, all participants improved their score on the Borg scale after performing the intervention with the application.This platform would help respiratory patients to make rehabilitation treatments to recover their pulmonary function and to decrease or eliminate the possible complications they have. It never substitutes any prescribed treatment. In conclusion, RespiraConNosotros is a simple, viable, and safe alternative for the improvement and maintenance of respiratory capacity and patient's functionality affected by COVID-19. It could be used as a complement to face-to-face treatment when the situation allows it. [ABSTRACT FROM AUTHOR]

Published

2021

42. Using Direct Acyclic Graphs to Enhance Skeleton-Based Action Recognition with a Linear-Map Convolution Neural Network.

Author

Tan, Tan-Hsu, Hus, Jin-Hao, Liu, Shing-Hong, Huang, Yung-Fa, Gochoo, Munkhjargal, and Pires, Ivan Miguel Serrano

Subjects

CONVOLUTIONAL neural networks, HUMAN activity recognition, LIVING alone, LINEAR operators, ACYCLIC model, SKELETON

Abstract

Research on the human activity recognition could be utilized for the monitoring of elderly people living alone to reduce the cost of home care. Video sensors can be easily deployed in the different zones of houses to achieve monitoring. The goal of this study is to employ a linear-map convolutional neural network (CNN) to perform action recognition with RGB videos. To reduce the amount of the training data, the posture information is represented by skeleton data extracted from the 300 frames of one film. The two-stream method was applied to increase the accuracy of recognition by using the spatial and motion features of skeleton sequences. The relations of adjacent skeletal joints were employed to build the direct acyclic graph (DAG) matrices, source matrix, and target matrix. Two features were transferred by DAG matrices and expanded as color texture images. The linear-map CNN had a two-dimensional linear map at the beginning of each layer to adjust the number of channels. A two-dimensional CNN was used to recognize the actions. We applied the RGB videos from the action recognition datasets of the NTU RGB+D database, which was established by the Rapid-Rich Object Search Lab, to execute model training and performance evaluation. The experimental results show that the obtained precision, recall, specificity, F1-score, and accuracy were 86.9%, 86.1%, 99.9%, 86.3%, and 99.5%, respectively, in the cross-subject source, and 94.8%, 94.7%, 99.9%, 94.7%, and 99.9%, respectively, in the cross-view source. An important contribution of this work is that by using the skeleton sequences to produce the spatial and motion features and the DAG matrix to enhance the relation of adjacent skeletal joints, the computation speed was faster than the traditional schemes that utilize single frame image convolution. Therefore, this work exhibits the practical potential of real-life action recognition. [ABSTRACT FROM AUTHOR]

Published

2021

43. A Framework for Malicious Traffic Detection in IoT Healthcare Environment.

Author

Hussain, Faisal, Abbas, Syed Ghazanfar, Shah, Ghalib A., Pires, Ivan Miguel, Fayyaz, Ubaid U., Shahzad, Farrukh, Garcia, Nuno M., Zdravevski, Eftim, Hallez, Hans, Vanrumste, Bart, Chen, Wei, and Jafari, Roozbeh

Subjects

TRAFFIC monitoring, INTERNET of things, SMART devices, COMPUTER network security, SMART power grids, SMART cities, MACHINE learning

Abstract

The Internet of things (IoT) has emerged as a topic of intense interest among the research and industrial community as it has had a revolutionary impact on human life. The rapid growth of IoT technology has revolutionized human life by inaugurating the concept of smart devices, smart healthcare, smart industry, smart city, smart grid, among others. IoT devices' security has become a serious concern nowadays, especially for the healthcare domain, where recent attacks exposed damaging IoT security vulnerabilities. Traditional network security solutions are well established. However, due to the resource constraint property of IoT devices and the distinct behavior of IoT protocols, the existing security mechanisms cannot be deployed directly for securing the IoT devices and network from the cyber-attacks. To enhance the level of security for IoT, researchers need IoT-specific tools, methods, and datasets. To address the mentioned problem, we provide a framework for developing IoT context-aware security solutions to detect malicious traffic in IoT use cases. The proposed framework consists of a newly created, open-source IoT data generator tool named IoT-Flock. The IoT-Flock tool allows researchers to develop an IoT use-case comprised of both normal and malicious IoT devices and generate traffic. Additionally, the proposed framework provides an open-source utility for converting the captured traffic generated by IoT-Flock into an IoT dataset. Using the proposed framework in this research, we first generated an IoT healthcare dataset which comprises both normal and IoT attack traffic. Afterwards, we applied different machine learning techniques to the generated dataset to detect the cyber-attacks and protect the healthcare system from cyber-attacks. The proposed framework will help in developing the context-aware IoT security solutions, especially for a sensitive use case like IoT healthcare environment. [ABSTRACT FROM AUTHOR]

Published

2021

44. A Brief Review on the Sensor Measurement Solutions for the Ten-Meter Walk Test.

Author

Pires, Ivan Miguel, Lopes, Eurico, Villasana, María Vanessa, Garcia, Nuno M., Zdravevski, Eftim, Ponciano, Vasco, Celesti, Antonio, Falco, Ivanoe De, Galletta, Antonino, and Sannino, Giovanna

Subjects

DETECTORS, INTERNET of things, MACHINE learning

Abstract

The wide-spread use of wearables and the adoption of the Internet of Things (IoT) paradigm provide an opportunity to use mobile-device sensors for medical applications. Sensors available in the commonly used devices may inspire innovative solutions for physiotherapy striving for accurate and early identification of various pathologies. An essential and reliable performance measure is the ten-meter walk test, which is employed to determine functional mobility, gait, and vestibular function. Sensor-based approaches can identify the various test phases and their segmented duration, among other parameters. The measurement parameter primarily used is related to the tests' duration, and after identifying patterns, a variety of physical treatments can be recommended. This paper reviews multiple studies focusing on automated measurements of the ten-meter walk test with different sensors. Most of the analyzed studies measure similar parameters as traditional methods, such as velocity, duration, and other involuntary and dangerous patients' movements after stroke. That provides an opportunity to measure different parameters that can be later fed into machine learning models for analyzing more complex patterns. [ABSTRACT FROM AUTHOR]

Published

2021

45. A Systematic Investigation of Models for Color Image Processing in Wound Size Estimation.

Author

Ferreira, Filipe, Pires, Ivan Miguel, Costa, Mónica, Ponciano, Vasco, Garcia, Nuno M., Zdravevski, Eftim, Chorbev, Ivan, Mihajlov, Martin, and Celesti, Antonio

Subjects

COLOR image processing, IMAGE analysis, WOUNDS & injuries

Abstract

In recent years, research in tracking and assessing wound severity using computerized image processing has increased. With the emergence of mobile devices, powerful functionalities and processing capabilities have provided multiple non-invasive wound evaluation opportunities in both clinical and non-clinical settings. With current imaging technologies, objective and reliable techniques provide qualitative information that can be further processed to provide quantitative information on the size, structure, and color characteristics of wounds. These efficient image analysis algorithms help determine the injury features and the progress of healing in a short time. This paper presents a systematic investigation of articles that specifically address the measurement of wounds' sizes with image processing techniques, promoting the connection between computer science and health. Of the 208 studies identified by searching electronic databases, 20 were included in the review. From the perspective of image processing color models, the most dominant model was the hue, saturation, and value (HSV) color space. We proposed that a method for measuring the wound area must implement different stages, including conversion to grayscale for further implementation of the threshold and a segmentation method to measure the wound area as the number of pixels for further conversion to metric units. Regarding devices, mobile technology is shown to have reached the level of reliable accuracy. [ABSTRACT FROM AUTHOR]

Published

2021

46. An Experimental Study on the Validity and Reliability of a Smartphone Application to Acquire Temporal Variables during the Single Sit-to-Stand Test with Older Adults.

Author

Marques, Diogo Luís, Neiva, Henrique Pereira, Pires, Ivan Miguel, Zdravevski, Eftim, Mihajlov, Martin, Garcia, Nuno M., Ruiz-Cárdenas, Juan Diego, Marinho, Daniel Almeida, Marques, Mário Cardoso, Redondo, Rebeca P. Díaz, and Ureña, Jesús

Subjects

OLDER people, MOBILE apps, INTRACLASS correlation, MEASUREMENT errors, DIGITAL video, BENCH press

Abstract

Smartphone sensors have often been proposed as pervasive measurement systems to assess mobility in older adults due to their ease of use and low-cost. This study analyzes a smartphone-based application's validity and reliability to quantify temporal variables during the single sit-to-stand test with institutionalized older adults. Forty older adults (20 women and 20 men; 78.9 ± 8.6 years) volunteered to participate in this study. All participants performed the single sit-to-stand test. Each sit-to-stand repetition was performed after an acoustic signal was emitted by the smartphone app. All data were acquired simultaneously with a smartphone and a digital video camera. The measured temporal variables were stand-up time and total time. The relative reliability and systematic bias inter-device were assessed using the intraclass correlation coefficient (ICC) and Bland-Altman plots. In contrast, absolute reliability was assessed using the standard error of measurement and coefficient of variation (CV). Inter-device concurrent validity was assessed through correlation analysis. The absolute percent error (APE) and the accuracy were also calculated. The results showed excellent reliability (ICC = 0.92–0.97; CV = 1.85–3.03) and very strong relationships inter-devices for the stand-up time (r = 0.94) and the total time (r = 0.98). The APE was lower than 6%, and the accuracy was higher than 94%. Based on our data, the findings suggest that the smartphone application is valid and reliable to collect the stand-up time and total time during the single sit-to-stand test with older adults. [ABSTRACT FROM AUTHOR]

Published

2021

47. Air Pollution Prediction with Multi-Modal Data and Deep Neural Networks.

Author

Kalajdjieski, Jovan, Zdravevski, Eftim, Corizzo, Roberto, Lameski, Petre, Kalajdziski, Slobodan, Pires, Ivan Miguel, Garcia, Nuno M., and Trajkovik, Vladimir

Subjects

AIR pollution, AIR pollution monitoring, FORECASTING, CONVOLUTIONAL neural networks, WILDLIFE monitoring, SUSTAINABLE architecture

Abstract

Air pollution is becoming a rising and serious environmental problem, especially in urban areas affected by an increasing migration rate. The large availability of sensor data enables the adoption of analytical tools to provide decision support capabilities. Employing sensors facilitates air pollution monitoring, but the lack of predictive capability limits such systems' potential in practical scenarios. On the other hand, forecasting methods offer the opportunity to predict the future pollution in specific areas, potentially suggesting useful preventive measures. To date, many works tackled the problem of air pollution forecasting, most of which are based on sequence models. These models are trained with raw pollution data and are subsequently utilized to make predictions. This paper proposes a novel approach evaluating four different architectures that utilize camera images to estimate the air pollution in those areas. These images are further enhanced with weather data to boost the classification accuracy. The proposed approach exploits generative adversarial networks combined with data augmentation techniques to mitigate the class imbalance problem. The experiments show that the proposed method achieves robust accuracy of up to 0.88, which is comparable to sequence models and conventional models that utilize air pollution data. This is a remarkable result considering that the historic air pollution data is directly related to the output—future air pollution data, whereas the proposed architecture uses camera images to recognize the air pollution—which is an inherently much more difficult problem. [ABSTRACT FROM AUTHOR]

Published

2020

48. PriADA: Management and Adaptation of Information Based on Data Privacy in Public Environments.

Author

Lopes, Hugo, Pires, Ivan Miguel, Sánchez San Blas, Hector, García-Ovejero, Raúl, and Leithardt, Valderi

Subjects

GENERAL Data Protection Regulation, 2016, DATABASE management, GLOBAL Positioning System, INFORMATION resources management, PRIVACY

Abstract

The mobile devices cause a constant struggle for the pursuit of data privacy. Nowadays, it appears that the number of mobile devices in the world is increasing. With this increase and technological evolution, thousands of data associated with everyone are generated and stored remotely. Thus, the topic of data privacy is highlighted in several areas. There is a need for control and management of data in circulation inherent to this theme. This article presents an approach to the interaction between the individual and the public environment, where this interaction will determine the access to information. This analysis was based on a data privacy management model in open environments created after reading and analyzing the current technologies. A mobile application based on location by Global Positioning System (GPS) was developed to substantiate this model, which considers the General Data Protection Regulation (GDPR) to control and manage access to each individual's data. [ABSTRACT FROM AUTHOR]

Published

2020

49. Literature on Applied Machine Learning in Metagenomic Classification: A Scoping Review.

Author

Tonkovic, Petar, Kalajdziski, Slobodan, Zdravevski, Eftim, Lameski, Petre, Corizzo, Roberto, Pires, Ivan Miguel, Garcia, Nuno M., Loncar-Turukalo, Tatjana, and Trajkovik, Vladimir

Subjects

SCIENTIFIC literature, MACHINE learning, NATURAL language processing, METAGENOMICS, COMPUTER science, ELECTRONIC data processing

Abstract

Simple Summary: Technological advancements have led to modern DNA sequencing methods, capable of generating large amounts of data describing the microorganisms that live in samples taken from the environment. Metagenomics, the field that studies the different genomes within these samples, is becoming increasingly popular, as it has many real-world applications, such as the discovery of new antibiotics, personalized medicine, forensics, and many more. From a computer science point of view, it is interesting to see how these large volumes of data can be processed efficiently to accurately identify (classify) the microorganisms from the input DNA data. This scoping review aims to give an insight into the existing state of the art computational methods for processing metagenomic data through the prism of machine learning, data science, and big data. We provide an overview of the state of the art metagenomic classification methods, as well as the challenges researchers face when tackling this complex problem. The end goal of this review is to help researchers be up to date with current trends, as well as identify opportunities for further research and improvements. Applied machine learning in bioinformatics is growing as computer science slowly invades all research spheres. With the arrival of modern next-generation DNA sequencing algorithms, metagenomics is becoming an increasingly interesting research field as it finds countless practical applications exploiting the vast amounts of generated data. This study aims to scope the scientific literature in the field of metagenomic classification in the time interval 2008–2019 and provide an evolutionary timeline of data processing and machine learning in this field. This study follows the scoping review methodology and PRISMA guidelines to identify and process the available literature. Natural Language Processing (NLP) is deployed to ensure efficient and exhaustive search of the literary corpus of three large digital libraries: IEEE, PubMed, and Springer. The search is based on keywords and properties looked up using the digital libraries' search engines. The scoping review results reveal an increasing number of research papers related to metagenomic classification over the past decade. The research is mainly focused on metagenomic classifiers, identifying scope specific metrics for model evaluation, data set sanitization, and dimensionality reduction. Out of all of these subproblems, data preprocessing is the least researched with considerable potential for improvement. [ABSTRACT FROM AUTHOR]

Published

2020

50. Homogeneous Data Normalization and Deep Learning: A Case Study in Human Activity Classification.

Author

Pires, Ivan Miguel, Hussain, Faisal, Garcia, Nuno M., Lameski, Petre, and Zdravevski, Eftim

Subjects

HUMAN activity recognition, DEEP learning, HUMAN experimentation, OLDER people

Abstract

One class of applications for human activity recognition methods is found in mobile devices for monitoring older adults and people with special needs. Recently, many studies were performed to create intelligent methods for the recognition of human activities. However, the different mobile devices in the market acquire the data from sensors at different frequencies. This paper focuses on implementing four data normalization techniques, i.e., MaxAbsScaler, MinMaxScaler, RobustScaler, and Z-Score. Subsequently, we evaluate the impact of the normalization algorithms with deep neural networks (DNN) for the classification of the human activities. The impact of the data normalization was counterintuitive, resulting in a degradation of performance. Namely, when using the accelerometer data, the accuracy dropped from about 79% to only 53% for the best normalization approach. Similarly, for the gyroscope data, the accuracy without normalization was about 81.5%, whereas with the best normalization, it was only 60%. It can be concluded that data normalization techniques are not helpful in classification problems with homogeneous data. [ABSTRACT FROM AUTHOR]

Published

2020